Activation analysis
Abdullaev, A. A., Khamidova, R., Zhuk, L. I., Khatamov, S.: Determination of copper in natural waters by activation.Izv. Akad. Nauk Uz. SSR Ser. Fiz-Matem. Nauk No. 5 (1969) 75–6 (in Russian), see alsoRef. Zh. Khim. 5 (1970) No. G 224.
Abdullaev, K., Zakhvataev, B. B., Perelygin, V. P.(Joint Inst. of Nuclear Research, Dubna, USSR); Determination of the uranium concentration in plants according to traces of uranium fission fragments.Radiobiologiya 8 (1968) 765–6 (in Russian), see alsoNucl. Sci. Abstr. 24 (1970) No. 20.
Anders, E.(Enrico Fermi Inst. for Nuclear Studies, Univ. of Chicago, Ill.): Radiochemical and geochemical studies. TID-4051 (1st Ed.), Jan. 1969, p. 75. Summaries of the USAEC Basic Research Program in chemistry (off site), see alsoNucl. Sci. Abstr. 23 (1969) No. 9359.
Anon: Stream analysis via neutron activation.Can. Chem. Process 52 (1968) 72–6, see alsoNucl. Sci. Abstr. 23 (1969) No. 9320.
Anon.: Neutron activation analysis.Chem. Process. (London) 15 (1969) No. 5, 28–9, see alsoNucl. Sci. Abstr. 23 (1969) No. 24129.
Anon.(Kaman Aircraft Corp., Bloomfield, Conn.): Improvements relating to the analysis of unknown material.Brit. Patent 1 117 919 (1964–1968), see alsoNucl. Sci. Abstr. 22 (1968) No. 42599.
Anon.(Chemical and Radioisotope Div., Intern. Chemical and Nuclear Corp., Irvine, Calif.): Radioisotope and source catalog. International Chemical and Nuclear Corp. Brochure, n. d., 65 p.
Atalla, L. T.(Instituto de Energia Atomica, Sao Paulo, Brazil): Nuclear data of several radioisotopes used in gamma spectroscopy and activation analysis. IEA-INF-10 Aug. 1968, 45 p. (in Portuguese), see alsoNucl. Sci. Abstr. 24 (1970) No. 4240.
Balsenc, L., Haerdi, W.(Univ., Inst. de Chimie Analytique et Minérale, Genève): Neutron activation analysis of hafnium traces in aluminium.Helv. Chim. Acta 52 (1969) 2657–62 (in French).
Bando, S., Tominaga, H., Kawakami, Y., Senoo, M.(Japan Atomic Energy Research Inst., Ibaraki): Choice of activable tracer for spraying agricultural insecticides by helicopter.Radioisotopes (Tokyo) 18 (1969) 488–93 (in Japanese), see alsoNucl. Sci. Abstr. 24 (1970) No. 2163.
Belyakov, M. A., Anchevskii, E. V.: On a possibility of eliminating sample moisture effect on accuracy of neutron activation analysis.Zavodsk. Lab. 35 (1969) 1364–6 (in Russian).
Bihet, O. L.: Oxygen determination in steel by neutron activation.Stahl Eisen 88 (1968) 1244–6 (in German), see alsoNucl. Sci. Abstr. 23 (1969) No. 24131.
Boddy, K., Al-Hashimi, S. A. M., Boyle, I. T.(Scottish Research Reactor Centre, East Kilbride, Scotland): An assessment of the probable errors in determining calcium in sections of bone by in vivo activation analysis. SRRC-30/69 Dec. 1968, 8 p.
Boivin, M., Perrin, F.(Labor. de Chimie Physique, Paris, France): Nuclear photoactivation of113In.Compt. Rend. Ser. A, B. 269 (1969) 929–31 (in French).
Brune, D.(AB Atomenergi, Studsvik, Sweden): The infinite-dilution resonance integrals of37Cl and127I.Radiochim. Acta 12 (1969) 119–20.
Carpenter, R.(Scripps Inst. of Oceanography, Dep. of Chem., La Jolla, Calif.): Factors controlling the marine geochemistry of fluorine.Geochim. Cosmochim. Acta 33 (1969) 1153–67.
Carpenter, B. S., Cheek, C. H.(Inst. for Materials Res., Natl. Bureau of Standards; Dept. of Chem., Howard Univ., Washington, D. C.): Trace determination of uranium in biological material by fission track counting.Anal. Chem. 42 (1970) 121–3.
Champlin, J. B. F.(Nuclear Sciences Div., Engineering Experiment Station, Georgia Inst. of Technology, Atlanta, Ga.): Void-space analysis by use of thermal-neutron irradiated air (41Ar).Nucl. Appl. Technol. 8 (1970) 283–9.
Chin, J., Horsley, J.(Gulf General Atomic Inc., San Diego, Calif.): Chemical vapor deposition of tungsten. IEEE Thermionic Conversion Specialist Conference, Boston, Mass., Oct. 21–24, 1968. GA-8772, Oct. 1968. 14 p. CONF-681059-1, see alsoNucl. Sci. Abstr. 23 (1969) No. 31326.
Cohn, S. H., Dombrowski, C. S., Fairchild, R. G.(Medical Res. Center, Brookhaven Natl. Lab., Upton, N. Y.): In-vivo neutron activation analysis of calcium in man.Intern. J. Appl. Radiation Isotopes 21 (1970) 127–37.
Comar, D.(Fréderic Joliot Hospital, Orsay, France): Clinical application of activation analysis.Advan. Activ. Anal. 1 (1969) 163–206, see alsoNucl. Sci. Abstr. 24 (1970) No. 7420.
Das, M. S., Il, Kim Won, Chul, Lee(Bhabha Atomic Res. Center, Analytical Div., Trombay, Bombay, India; Atomic Energy Res. Inst., Chem. Div., Seoul, Korea): Iron wire containing manganese as flux monitor in activation analysis using short-lived radionuclides.Intern. J. Appl. Radiation Isotopes 20 (1969) 746–7.
Eckhoff, N. D.(Dept. of Nuclear Engineering, Kansas State Univ., Manhattan, Kan.):Corgam—a correlation algorithm for gamma-ray spectra.Nucl. Instr. Methods 74 (1969) 77–85.
Eckhoff, N. D.(Dept. of Nuclear Engineering, Kansas State Univ., Manhattan):Corgam.Nucl. Sci. Eng. 35 (1969) 157, see alsoNucl. Sci. Abstr. 23 (1969) No. 7449.
Egiazarov, B. G., Zyubko, V. A., Selyutin, R. P.: Choice of an analytical method for instrumental activation analysis with respect to sensitivity and statistical accuracy of measurements.At. Energ. (USSR) 27 (1969) 460–2 (in Russian).
Ehmann, W. D.(Univ. of Kentucky, Lexington, Ky.): Radiochemistry as applied to geochemical problems: neutron activation analysis. TID-4051 (1st Ed.) Jan. 1969, p. 76. Summaries of the USAEC Basic Research Program in Chemistry. See alsoNucl. Sci. Abstr. 23 (1969) No. 9359.
Engelmann, C.(Centre d’Etudes Nucléaires, Saclay, France): Activation analysis with charged particles and gamma photons.Bull. Inform. Sci. Tech. (Paris) 1969, No. 140, 65–70 (in French). ORNL-tr-2265, 1969, 7 p., see alsoNucl. Sci. Abstr. 24 (1970) Nos 2162 and 7418;Ref. Zh. Khim 5 (1970) No. G 69.
Feldt, W.(Isotopen-Labor., German Federal Board of Fisheries Res., Hamburg, Germany): Application of the neutron activation analysis in the radioecology. Intern. Symp. on the Application of Neutron Activation Analysis in Oceanography, Brussels, Belgium, June 17–22, 1968. AED-Conf. 68-129-001, 6 p.
Fisher, D. E. (Inst. of Marine Sciences, Univ. of Miami, Fla.): Silicon in iron meteorites and the earth’s core.Nature 222 (1969) 866–7.
Fisher, D. E., Bostrom, K. (Inst. of Marine Sciences, Univ. of Miami, Fla.): Uranium rich sediments on the East Pacific Rise.Nature 224 (1969) 64–5.
Fisher, D. E. (Inst. of Marine Sciences, Univ. of Miami, Fla.): Neutron activation analysis studies of iron meteorites. TID-4051 (1st Ed.), Jan. 1969. p. 76–7, Summaries of the USAEC Basic Research Program in Chemistry (off site), see alsoNucl. Sci. Abstr. 23 (1969) No. 9359.
Fisher, D. E. (Rosenstiel School of Marine and Atmospheric Sciences, Univ. of Miami, Fla.): Homogenized fission track determination of uranium in whole rock geologic samples.Anal. Chem. 42 (1970) 414–6.
Gordus, A. A., Griffin, J. B., Wright, G. A. (Michigan Univ., Ann Arbor): Activation analysis identification of the geologic origins of prehistoric obsidian artifacts. COO-912-16 Dec. 1968, 39 p., see alsoNucl. Sci. Abstr. 24 (1970) No. 2148.
Green, T. H., Brunfelt, A. O., Heier, K. S. (Mineralogisk-Geologisk Museum, Oslo): Rare earth element distribution in anorthosites and associated high grade metamorphic rocks, Lofoten-Vesteraalen, Norway.Earth Planet. Sci. Lett. 7 (1969) 93–8, see alsoNucl. Sci. Abstr. 24 (1970) No. 7422.
Hamada, S., Torizuka, K., Hamamoto, K., Mori, T., Morita, R., Nakagawa, K., Konishi, J. (Kyoto Univ., School of Medicine): Determination of free thyroxine in human serum by neutron activation analysis.Radioisotopes (Tokyo) 18 (1969) 354–8, see alsoNucl. Sci. Abstr. 23 (1969) No. 45230.
Higashi, T., Kawai, Jun-ichi (Kanagawa Dental Coll., Japan): Measurement of micro elements in dental pulp by activation analysis.Kokubyo-gakkai Zasshi 18 (1969) 357–61 (in Japanese), see alsoNucl. Sci. Abstr. 24 (1970) No. 4242.
Hislop, J. S., Wood, D. A. (Atomic Energy Research Establishment, Harwell, England): The destructive and non-destructive analysis of vanadium for carbon by gamma activation. AERE-R-6165 Aug. 1969. 18 p., see alsoNucl. Sci. Abstr. 24 (1970) No. 5612.
Ishikawa, H. (Japan Atomic Energy Research Inst., Tokyo): Determination of activation cross-section by gamma-ray spectrometry.J. Nucl. Sci. Technol. (Tokyo) 6 (1969) 587–90, see alsoNucl. Sci. Abstr. 24 (1970) No. 5613.
Jancziszyn, J., Loska, L. (Inst. of Nuclear Techniques, Acad. of Mining and Metallurgy, Cracow, Poland): A simple formula to the calculation of the fast neutron flux in the vicinity of the neutron generator target.Radiochem. Radioanal. Letters 3 (1970) No. 4, 343–8.
Jones, D. W., Malmberg, P. R., May, T. H., Strain, C. V. (Memphis State Univ., Memphis, Tenn.; US Naval Res. Lab., Washington, D. C.): Nondestructive assay of fissionable materials.Nucl. Appl. Technol. 8 (1970) 79–83, see alsoNucl. Sci. Abstr. 24 (1970) No. 2166.
Karlicek, V., Kott, J., Sova, J., Bilkova, L., Topolcan, O. (Charles Univ., Plzen, Czech.): Determination of 10 trace elements in biological materials by the method of neutron activation analysis.Čas. Lék. Česk. 108 (1969) 1017–21 (in Czech), see alsoNucl. Sci. Abstr. 24 (1970) No. 2153.
Kenna, B. T., Harrison, P. E. (Sandia Labs., Albuquerque, N. Mex.): Characterization of materials by qualitative neutron activation analysis. SC-RR-69-56. Nov. 1969. 12 p., see alsoNucl. Sci. Abstr. 24 (1970) No. 2150.
Kobayashi, M. (Tokyo Univ., Japan): Study on metallurgical application of radioactivation method.Rep. Inst. Ind. Sci., Univ. Tokyo, 19 (1968) 85, see alsoNucl. Sci. Abstr. 24 (1970) No. 5645.
Kohman, T. P. (Carnegie Mellon Univ., Pittsburgh, Pa.): Nuclear chemistry and geochemistry research. TID-4051 (1st Ed.) Jan. 1969, p. 75. Summaries of the USAEC Basic Research Program in Chemistry, see alsoNucl. Sci. Abstr. 23 (1969) No. 9359.
Krinninger, H., Wiesner, S., Faber, C. (Internationale Atomreaktorbau GmbH, Bensberg, Germany): Pulsed neutron method for non-destructive and simultaneous determination of the235U and239Pu contents of irradiated and non-irradiated reactor fuel elements.Nucl. Instr. Methods. 73 (1969) 13–33, see alsoNucl. Sci. Abstr. 23 (1969) No. 43270.
Lamb, J. F., Lee, D. M., Markowitz, S. S. (Dept. of Chemistry, Lawrence Radiation Lab., Univ. of California, Berkeley, Calif.): Surface profile analysis by helium-3 activation; oxygen in silicon.Anal. Chem. 42 (1970) 212–5.
Lamb, J. F., Lee, D. M., Markowitz, S. S. (Dept. of Chemistry; Lawrence Radiation Lab., Univ. of California, Berkeley, Calif.): Preparation of isotopic oxygen targets for charged particle activation analysis.Anal. Chem. 42 (1970) 209–12.
Lamb, J. F. (California Univ., Lawrence Radiation Lab., Berkeley, Calif.): Radioactivation by3He bombardment: a practical analytical system. UCRL-18981 Sept. 1969. 230 p., see alsoNucl. Sci. Abstr. 24 (1970) No. 2152.
Laune, J. (Atomic Energy Research Establishment, Harwell, Berks., England): Neutron counting and boron determination by detection of de-excitation gamma from the7Li nucleus produced by the reaction10B(n, α)7Li. NP-tr-1747, 1968, 6 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 21668.
Laverlochère, J. (CEN, Grenble, France): Neutron activation analysis.Bull. Inform. Sci. Tech. (Paris) 140 (1969) 61–3 (in French), see alsoNucl. Sci. Abstr. 24 (1970) No. 2161.
Lehman, R. L., Brisbane, R. W. (Lab. of Nuclear Medicine and Radiation Biology, California Univ., Los Angeles, Calif.): A computer program for the solution of neutron activation and decay problems. UCLA-12-686, 1968, p. 27–8. Semiannual Progress Report for the Period Ending June 30, 1968, see alsoNucl. Sci. Abstr. 23 (1969) No. 9842.
Lieberman, K. W., Kramer, H. H. (Dept. of Internal Medicine, New York; Union Carbide Corp., Sterling Forest Res. Center, Tuxedo, N. Y.): Cadmium determination in biological tissue by neutron activation analysis.Anal. Chem. 42 (1970) 266–7.
Lindstedt, K. D., Kruger, P. (Civil Engineering Dept., Univ. of Colorado, Boulder, Colo.; Civil Engineering Dept., Stanford Univ., Stanford, Calif.): Determination of vanadium in natural waters by neutron activation analysis.Anal. Chem. 42 (1970) 113–5, see alsoNucl. Sci. Abstr. 24 (1970) Nos 104 and 112.
Lutz, G. J. (Anal. Chem. Div., Inst. for Materials Research, National Bureau of Standards, Washington, D. C.): Forensic science: A bibliography of activation analysis papers. NBS Technical Note 519, March, 1970, 47 p.
Luyendyk, B. P., Fisher, D. E. (Scripps Institution of Oceanography, Univ. of California, San Diego, Calif.; Inst. of Marine Sciences, Univ. of Miami, Fla.): Fission track age of magnetic anomaly 10: a new point on the sea-floor spreading curve.Science 164 (1969) 1516–7.
Maletskos, C. J., Tang, C. W. (Cancer Res. Inst., New England Deaconess Hospital; Harvard Medical School, Boston, Mass.): Preliminary studies on the characterization of human tissues by trace elements using activation analysis. 5th Intern. Meeting of the Association of Forensic Sciences and the Intern. Association of Forensic Toxicologists, Toronto, Canada, June 5–11, 1969. AED-Conf. 69-157-002, 2 p.
Mantel, M., Sung-Tung, Propai, Amiel, S. (Nuclear Chemistry Dept., Soreq Nuclear Res. Centre, Yavne, Israel; Office of Atomic Energy for Peace, Bangkok, Thailand): Neutron activation analysis of thorium in rocks and ores by multiple gammaray peak ratio determination.Anal. Chem. 42 (1970) 267–71.
Mantel, M., Sung-Tung Propai, Amiel, S. (Nuclear Chemistry Dept., Soreq Nuclear Res. Centre, Yavne, Israel; Office of Atomic Energy for Peace, Bangkok): Determination of thorium in ores by nondestructive activation analysis using high resolution gamma ray detectors. Summary. Israel AEC Rept. No. 1190, 1969. 116–7, see alsoRef. Zh. Khim. 6 (1970) No. G 162.
McAndrew, R. G., Smathers, J. B., Wainerdi, R. E., Harrison, G. M., Doggett, R. (Dept. of Nuclear Engineering, Texas A and M Univ., College Station; Baylor Univ. School of Medicine, Waco, Tex.): Application of neutron activation analysis to the sweat test diagnosis of cystic fibrosis.Nucl. Appl. Technol. 8 (1970) 290–5.
Michaelis, W. (Institut für Angewandte Kernphysik, Karlsruhe, Germany): Nondestructive analysis of nuclear fuels by radiative neutron capture.Atomkernenergie 14 (1969) 347–51, see alsoNucl. Sci. Abstr. 23 (1969) No. 45225.
Morgan, J. W., Ehmann, W. D. (Dept. of Chemistry, Univ. of Kentucky, Lexington, Ky): Precise determination of oxygen and silicon in chondritic meteorites by 14-MeV neutron activation with a single transfer system.Anal. Chim. Acta 49 (1970) 287–99.
Morgan, J. W., Ehmann, W. D. (Dept. of Chemistry, Univ. of Kentucky, Lexington, Ky.): Multiparameter coincidence spectrometry applied to the non-destructive neutron activation analysis of meteorites.Anal. Lett. 2 (1969) 537–45, see alsoNucl. Sci. Abstr. 24 (1970) No. 4244.
Murali, A. V., Parekh, P. P., Sankar, Das, M. (Analytical Div., Bhabha Atomic Res. Centre, Trombay, Bombay, India): On the fission track method for the determination of the uranium content of whole rock samples.Anal. Chim. Acta 50 (1970) 71–7.
Murozumi, M., Chow, T. J., Patterson, C. (Muroran Inst. of Technol., Muroran, Hakkaido, Japan; Univ. of California, Scripps Inst. of Oceanography, San Diego, Calif.; California Inst. of Technol. Div. of Geological Sci., Pasadena, Calif.): Chemical concentrations of pollutant lead aerosols, terrestrial dusts and sea salts in Greenland and Antarctic snow strata.Geochim. Cosmochim. Acta 33 (1969) 1274–94.
Nagashima, N., Miyake, (Hitachi Ltd. Tokyo, Japan): Non-destructive determination of sodium in surface oxide film of silicon by neutron activation analysis.Bunseki Kiki 7 (1969) 31–6 (in Japanese), see alsoNucl. Sci. Abstr. 24 (1970) No. 4243.
Nargolwalla, S. S., Crambes, M. R., Suddueth, J. E. (Natl. Bureau of Standards, Washington, D. C.; Activation Analysis Group, Centre d’Etudes Nucléaires, Grenoble, France): Photon seif-absorption corrections for the minimization of systematic errors in 14-MeV neutron activation analysis.Anal. Chim. Acta 49 (1970) 425–36.
Neirinckx, R., Adams, F., Hoste, J. (Inst. for Nuclear Sciences, Ghent Univ., Ghent, Belgium): Determination of impurities in titanium and titanium dioxide by neutron activation analysis. Part 5. Destructive and non-destructive determination of manganese, indium and uranium.Anal. Chim. Acta 50 (1970) 31–8.
Nozaki, T.: Radioactivation analysis.Kagaku no ryoiki 23 (1969) No. 9, 851–7 (in Japanese), see alsoRef. Zh. Khim. 5 (1970) No. G 68.
Nurmatov, D., Babakhodzhaev, S. (Acad. Sci. Uzbek. SSR, Inst. of Nuclear Physics; Acad. Sci. Tadzhik. SSR, Inst. of Geol.): Determination of some rare-earth elements of the Ce subgroup in the rocks of eastern Karamazar by non-destructive neutron activation analysis.Izv. Akad. Nauk Tadzh. SSR., Otd. Fiz. Tekhn. Khim. Nauk 31 (1969) 23–7 (in Russian).
Ohno, S., Suzuki, M., Sasajima, K., Iwata, S. (Natl. Inst. of Radiological Sciences, Anagawa, Chiba; Res. Reactor Inst., Kyoto Univ., Osaka, Japan): Determina tion of fluorine in urine by photonuclear activation analysis.Analyst 95 (1970) 260–3.
Oldham, G., Mathur, S. C. (Loughborough Univ. of Tech., Loughborough, England): The use of 14 MeV neutrons in the activation analysis of minerals.Nucl. Energy (1969) 58–62, see alsoNucl. Sci. Abstr. 23 (1969) No. 24128.
Palomares, J., Travesi, A., Dominguez, C. (Junta de Energia Nuclear, Radiochem. Sect., Madrid, Spain): Neutron activation analysis of iodine traces in activated charcoal filters.Radiochem. Radioanal. Letters 3 (1970) No. 4, 357–64.
Perdijon, J. (Centre d’Etudes Nucléaires, Grenoble, France): L’automatisation en analyse par activation neutronique et ses applications à la production industrielle.Talanta 17 (1970) 197–201.
Pillay, K. K. S., Thomas, C. C., Hart, D. M., Didising, D., Thomas, R. C. (Western New York Nuclear Res. Center, Inc., Moore Business Forms Inc.; State Univ. of New York; Veterans Administration Hospital; Buffalo, N. Y.): Applications of rare-earth tracers to gunpowder residues.Nucl. Appl. Technol. 8 (1970) 73–8.
Pretorius, R., Wainerdi, R. E. (Activation Analysis Res. Labor., Texas A and M Univ., College Station, Tex.): Determination of deuterium in heavy water by secondary deuteron activation.Talanta 17 (1970) 51–9.
Quittner, P., Wainerdi, R. E. (Central Res. Inst. for Physics, Budapest, Hungary: Activation Analysis Res. Labor., Texas A and M Univ., College Station, Tex.): Least-squares resolution of gamma-ray spectra resulting from interfering radio-activities.Nucl. Instr. Methods 74 (1969) 33–8.
Randa, Z., Benada, J., Kunciř, J., Vobecký, M. (Inst. of Mineral Raw Materials, Kutná Hora: Nuclear Research Inst. of Czech. Acad. Sci., Řež near Prague, Czechoslovakia): Determination of rhenium and other trace elements in molybdenites by means of instrumental neutron activation analysis.Radiochem. Radioanal. Letters 3 (1970) No. 4, 227–237.
Ricci, E., Handley, T. H. (Analytical Chemistry Div., Oak Ridge National Lab., Oak Ridge, Tenn): Activation analysis with californium-252.Anal. Chem. 42 (1970) 378–82.
Rook, H. L., Schweikert, E. A. (Activation Analysis Research Lab., Texas A and M Univ., College Station, Tex.): Time dependent charged particle activation analysis: An approach for studying trace element distributions.Radiochem. Radioanal. Letters 3 (1970) No. 4, 239–48.
Ruch, R. R. (Illinois State Geological Survey, Analytical Chemistry Section, Urbana, Ill.): Radiochemical separation of gold by amalgam exchange.Anal. Chim. Acta 49 (1970) 381–9.
Rurarz, E., Sulik, A. (Dept. of Physics, Inst. of Nuclear Research, Swierk, Poland): Pneumatic sample transport system for a neutron generator.Nukleonika 14 (1969) 1165–9.
Sandquist, G. M., Matsuura, S. T. (Univ. of Utah, Salt Lake City): Analyzing elements with neutron activation.Eng. Mining J. 170 (1969) No. 10, 87–9, see alsoNucl. Sci. Abstr. 24 (1970) No. 2158.
Schmidt, D., Starke, K. (Inst. für Kernchemie, Univ. Marburg; Inst. für Radiochemie, Technische Hochschule, München, Garching bei München, Germany): Radiochemical separations for tin determination in rocks by neutron activation analysis.Radiochim. Acta 11 (1969) 197–202 (in German), see alsoNucl. Sci. Abstr. 23 (1969) No. 37916.
Shinbori, Y., Tamachi, T. (Musashi Inst. of Technology, Kawasaki, Japan): Activation analysis of trace elements in refined soybean oils. Part 3. Determination of gold.Radioisotopes (Tokyo) 18 (1969) 12–5 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 11471.
Simková, M., Kukula, F. (Nuclear Research Inst. of Czech. Acad. Sci., Řež near Prague, Czechoslovakia): Determination of trace impurities in germanium by means of activation analysis.Radiochem. Radioanal. Letters 3 (1970) No. 4, 295–303.
Spicer, G. S. (Atomic Energy Research Establishment, Harwell England): Determination of praseodymium in zircon by absorptiometric and radioactivation methods. AERE-AM-109 Mar. 1969, 9 p.
Starnes, P. E. (Hilger and Watts Ltd., Reading, Berks, England): Improvements in activation analysis.Brit. Pat. 1 124 992 (1966–1968), see alsoNucl. Sci. Abstr. 22 (1968) No. 45002.
Steinnes, E., Brune, D. (Inst. for Atomenergi, Isotope Laboratories, Kjeller, Norway; AB Atomenergi, Studsvik, Nyköping, Sweden): Determination of uranium in rocks by instrumental activation analysis using epithermal neutrons.Talanta 16 (1969) 1326–9.
Sterlinski, S. (Dept. of Anal. Chem., Inst. of Nuclear Research, Warsaw, Poland): Features of the modified Covell method for computation of total absorption peak areas in complex gamma-ray spectra.Anal. Chem. 42 (1970) 151–5.
Twitty, B. L., Boback, M. W. (National Lead Co. of Ohio, Cincinnati): Rapid determination of thorium in urine by thermal neutron activation analysis.Anal. Chim. Acta 49 (1970) 19–24, see alsoNucl. Sci. Abstr. 24 (1970) No. 7421.
Vasserman, A. M., Chapyzhnikov, B. A., Kunin, L. L., Yakovlev, Yu. V. (Acad. Sci. USSR, V. I. Vernadskii Inst. of Geochem. and Analytical Chem., Moscow): A method for the separation of the15O isotope during the radioactivation determination of oxygen in pure materials.Zh. Analit. Khim. 24 (1969) 1710–13 (in Russian), see alsoNucl. Sci. Abstr. 24 (1970) No. 4252.
Vinogradov, A. P. (Acad. Sci. USSR, V. I. Vernadskii Inst. of Geochem. and Analytical Chem., Moscow): On the composition of lunar rocks.Geokhimiya 10 (1969) 1276–7 (in Russian).
Volborth, A.: Elemental analysis in geochemistry. Part A. Major elements. Methods in Geochemistry and Geophysics. Elsevier, Amsterdam, 1969, 375 p.
Wet, W. J. de (National Nuclear Res. Centre, Chem. Div., Pelindaba, Pretoria): A selective method for the complete removal of sodium from samples in activation analysis.J. S. African Chem. Inst. 22 (1969) 168–74.
Wiernik, M., Amiel, S.: Activations analysis of lead by means of207mPb. Summary. Israel AEC Rept. No. 1190, 1969, 114–5, see alsoRef. Zh. Khim. 5 (1970) No. G 125.
Wiernik, M., Amiel, S.: Dead time correction in activation analysis with very short-lived nuclides. Summary. Israel AEC Rept. No. 1190, 1969, 112–114, see alsoRef. Zh. Khim. 5 (1970) No. G 70.
Yabuki, H., Makoto, S. (Inst. of Physical and Chemical Research, Yamato, Japan): Determination of239Pu by fission tracks.Bunseki Kagaku 18 (1969) 1265–7 (in Japanese), see alsoNucl. Sci. Abstr. 24 (1970) Nos 2146 and 4231.
Yamamoto, A., Kumamaru, T., Hayashi, Y.: Determination of sodium in manganesezinc ferrite by neutron activation analysis.Ann. Repts. Res. Reactor Inst., Kyoto Univ. 2 (1969) 87–8, see alsoRef. Zh. Khim. 5 (1970) No. G 209.
Zoller, W. H., Gordon, G. E. (Dept. of Chemistry, Univ. of Maryland, College Park, Md.; Massachusetts Inst. of Technology, A. A. Noyes Nuclear Chemistry Center, Cambridge, Mass.): Instrumental neutron activation analysis of atmospheric pollutants utilizing Ge(Li) gamma-ray detectors.Anal. Chem. 42 (1970) 257–65.
Analysis by nuclear absorption and scattering
Avrahami, M., Golding, R. M. (Dep. of Scientific and Industrial Res. Chem. Div., Wellington, New Zealand): Moessbauer spectroscopy as a tool in analytical chemistry.New Zealand J. Sci. 12 (1969) 594–605.
Dillinger, P., Tölgyessy, J. (T. V. Chemical-Technological Fac., Chair of Radiochem. and Radiation Chem., Bratislava, Czechoslovakia): Determination of boron in boric glasses by neutron absorption method.Silikáty 13 (1969) 339–46 (in Czech).
Górsky, L., Lenda, A., Przewlocki, K. (Acad. of Mining and Metallurgy, Inst. of Nuclear Techniques, Cracow, Poland): Development of radiometric methods in mining and geology of People’s Republic of Poland.At. Energ. (USSR) 27 (1969) 447–56 (in Russian).
Jirkovsky, R., Kressner, R. (Inst. für Anal. Chem. und Radiochem. an der metallurgischen Fak. der Montan-Hochschule in Ostrawa, Tschechoslowakei): Schnellanalyse von Buntlegierungen mit dem Beta-Rückstreuverfahren.Radiochem. Radioanal. Letters 3 (1970) No. 3. 175–81.
Jombik, J., Gruntova, Z., Schiller, P. (Comenius Univ., Bratislava, Czechoslovakia): Analytical methods based on reflection and absorption of radioactive radiation. Part 8. The use of the beta back dispersion for the evaluation of stability of emulsions of the o/w type.Česk. Farm. 17 (1968) 419–22 (in Czech).
Kwiecinski, S., Lubecki, A.: Determination of high cadmium contents in industrial materials by back scattering of beta particles.Rudy Metale Niezelaz. 14 (1969) 335–6 (in Polish), see alsoNucl. Sci. Abstr. 23 (1969) No. 43268.
Marcu, G., Sacelean, V.: Indirect determination by beta backscattering method. Part 3. Determination of lithium.Stud. Univ. Babes-Bolyai, Ser. Chem. 14 (1969) 139–41 (in Rumanian), see alsoNucl. Sci. Abstr. 23 (1969) No. 43271.
Maxwell, J. A.: Rock and mineral analysis. Interscience, New York, 1969, 584 p.
Patterson, J. H., Franzgrote, E. J., Turkevich, A. L., Anderson, W. A., Economou, T. E., Griffin, H. E., Grotch, S. L., Sowinski, K. P. (Argonne National Lab., Ill.): Alpha-scattering experiment on Surveyor 7: Comparison with Surveyors 5 and 6.J. Geophys. Res. 74 (1969) 6120–48, see alsoNucl. Sci. Abstr. 24 (1970) No. 5610.
Peebles, G. A. (Eldorado Nuclear Ltd., Eldorado, Saskatchewan, Canada): Radiometric instrumentation and techniques at Eldorado’s Beaverlodge operation.Can. Mining. Met. Bull. 62 (1969) 1087–92.
Plaksin, I. I., Andrievskii, E. I., Ivashchenko, G. A., Mikhailov, G. I., Starchik, L. P.: Application of170Tm excited characteristic radiation for the determination of tungsten in dry concentrates.Nauchn. soobshch., Inst. Gorn. Dela im. A. A. Skochinskogo 47 (1969) 18–23 (in Russian), see alsoRef. Zh. Khim. 6 (1970) No. G 163.
Salamida, D. P. (Materials Analyses Area, Xerox Corp., Rochester, New York): Measurement of selenium thickness on nickel substrate using bremsstrahlung radiation.Radiochem. Radioanal. Letters 3 (1970) No. 4, 331–7.
Sugarman, N., Turkevich, A. (Enrico Fermi Inst. for Nuclear Studies, Univ. of Chicago, Ill.): Nuclear chemistry research. TID-4051 (1st Ed.) Jan. 1969, p. 7–8. Summaries of the USAEC Basic Research Program in Chemistry (off site), see alsoNucl. Sci. Abstr. 23 (1969) No. 9359.
Turos, A., Wilhelmi, Z. (Inst. of Nuclear Research, Swierk, Poland): Application of the coulomb backscattering of the heavy charged particles. Part 2. Chemical analysis of surface layers.Nukleonika 14 (1969) 319–35, see alsoNucl. Sci. Abstr. 23 (1969) No. 47399
Isotope dilution analysis
Amer, F., Mahdi, S., Alradi, A. (Univ. of Alexandria, Egypt): Limitations in isotopic measurements of labile phosphate in soils.J. Soil Sci. 20 (1969) 91–100, see alsoNucl. Sci. Abstr. 23 (1969) No. 40570.
Baba, S., Matsuda, A. (Tokyo Coll. of Pharmacy): Studies on the analysis of drugs by radioisotopes. Part 5. Identification of metabolites of ephedrine in the rabbit liver.Yakugaku Zasshi 89 (1969) 833–6 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 40569.
Carmichael, I. A., Whitley, J. E.(Scottish Res. Reactor Centre, East Kilbride, Glasgow, Scotland): Determination of fluoride by substoichiometric isotope dilution.Analyst 95 (1970) 393–5.
Finston, H. L., Williams, E. T.(Brooklyn College, City Univ. of New York, N. Y.): Application of nuclear and radiochemical techniques in chemical analysis. TID-4051 (1st Ed.), Jan. 1969, p. 70. Summaries of the USAEC Basic Research Program in Chemistry (off site), see alsoNucl. Sci. Abstr. 23 (1969) No. 9359.
Instrumentation, analysis by activity measurement
Acena, M. L., Pottier, R., Berger, R.: Dosage de traces de236Pu dans le238Pu par spéctrometrie alpha. Rapp. CEA No. 3773, 1969, 31 p., see alsoRef. Zh. Khim. 6 (1970) B 686.
Adams, R. J.(National Res. Council, Div. of Applied Physics, Ottawa, Canada): Absolute standardization of195Au by beta-gamma coincidence counting.Intern. J. Appl. Radiation Isotopes 20 (1969) 808–11.
Bell, T. K.(Royal Victoria Hospital, Belfast): Assay of diagnostic radioisotopes in large liquid volumes with a well-type crystal in the end-on position.J. Clin. Pathol. 22 (1969) 240–1, see alsoNucl. Sci. Abstr. 23 (1969) No. 43272.
Bindewald, H., Knaelmann, M.(Technical Univ. Hannover, Germany): A method for the quantitative determination of tritium on metal surfaces.Atomkernenergie 14 (1969) 431–4, see alsoNucl. Sci. Abstr. 24 (1970) No. 2139.
Bishop, C. T., Curtis, M. L., Bolson, M. M.(Mound Lab., Miamisburg, Ohio): Gamma counting of210Po in solution. MLM-1654 Aug. 12, 1969, 7 p.
Blaschke, H. G.(Technische Universität Hannover, Institut für Technische Chemie, Germany): Measurement of the solute concentrations at the interface of two liquids by the liquid scintillation technique. BMwF-FBK-69-34, Oct. 1969, 47 p. (in German), see alsoNucl. Sci. Abstr. 24 (1970) No. 5601.
Buchan, R. C. T.(Medical Physics Dept., Plymouth General Hospital, Plymouth, England): Faecal assay for32P by the sample rotation method.Intern. J. Appl. Radiation Isotopes 21 (1970) 53–4.
Buschmann, R., Poulheim, K. F.(Staatl. Zentrale für Strahlenschutz der DDR, Berlin-Friedrichshagen): Measurement of low-energy beta emitters with a simple liquid scintillation counter.Schriftenreihe Staatl. Zentr. Strahlenschutz 8 (1969) 1–28 (in German).
Carr-Brion, K. G.(Warren Spring Lab., Stevenage, Herts., England): The selection of exciting energy in radioisotope X-ray fluorescence analysis.Analyst 94 (1969) 177–81, see alsoZ. Anal. Chem. 250 (1970) 38.
Chaudhuri, B. N., Yadav, H. S.(Inst. of Nuclear Med. and Allied Sci., Div. of Experimental Med. Delhi, India): A simplified method for the measurement of tritium,14C and45Ca concentrations in blood plasma.Ind. J. Med. Res. 57 (1969) 1278–81.
Chester, J., Chase, R.(Instrumentation and Health Physics Dept., Brookhaven Natl. Lab., Upton, N. Y.): A compact counting system utilizing integrated circuits and a solid state detector.Health Phys. 18 (1970) 191–4
Cramer, W. A., Houtman, J. P. W., Piet, G. J., Boer, E. De(Reactor Institute, Delft, Netherlands): Measurement of radioactivity in effluents of a gas chromatograph. Part 2.Intern. J. Appl. Radiation Isotopes 20 (1969) 129–30, see alsoNucl. Sci. Abstr. 23 (1969) No. 13661.
Erdtmann, G., Freiburg, C., Petri, H.(Zentrallab. für Chemische Analyse, Kernforschungsanlage, Jülich, Germany): Erfahrungen bei der Least-Squares-Auswertung der Gamma-Spektren von Nuklidgemischen und bei der Simultanbestimmung von langlebigen Radionukliden in neutronenaktiviertem Blei und Aluminium.Z. Anal. Chem. 250 (1970) 1–12 (in German).
Grower, M. F., Bransome, E. D.(Massachusetts Inst. of Tech., Cambridge): Handling liquid scintillation counting data with small desk-top computers.Anal. Biochem. 31 (1969) 159–73, see alsoNucl. Sci. Abstr. 24 (1970) No. 4233.
Hankins, D. E.(Univ. of California, Los Alamos Scientific Labor., Los Alamos, N. Mex.): Direct counting of hair samples for32P activation.Health Phys. 17 (1969) 740–2.
Hashimoto, T., Iwata, S.(Kyoto Univ. Japan): Rapid separation of natural radionuclides by paper electromigration and a new detection method of these alpha-emitters based on alpha-particle track.Bunseki Kagaku 18 (1979) 1382–8 (in Japanese), see alsoNucl. Sci. Abstr. 24 (1970) No. 5611.
Iwakura, T., Maebayashi, A., Kasida, Y.(National Inst. of Radiological Sciences, Chiba, Japan): Use of commercially available nonionic surfactants as emulsifying agents in liquid scintillation counting for aqueous samples of low level tritium.Radioisotopes (Tokyo) 18 (1969) 506–9, see alsoNucl. Sci. Abstr. 24 (1970) No. 2141.
Jirkowsky, R.(Inst. für Anal. Chem. und Radiochem. an der Metallurgischen Fak. der Montan-Hochschule in Ostrawa, Tschechoslowakei): Die radiometrische K2O-Bestimmung in Feldspaten unter Auswertung der beta-Eigenstrahlung des40K.Radiochem. Radioanal. Letters 3 (1970) No. 3 165–8.
Kearns, D. S.(Intertech. Inc., Life Sci. Applications Labor., North Haven, Conn.): An ultrasensitive method for the determination of low levels of respiratory14CO2 by liquid scintillation counting.Intern. J. Appl. Radiation Isotopes 20 (1969) 821–4, see alsoNucl. Sci. Abstr. 24 (1970) No. 4232.
Kempisty, T., Lada, W.: The detectability of impurities in pure beta-emitters by means of scintillation spectrometer.Nukleonika 14 (1969) 987–93.
Kiessling, S., Stoeppler, M.(Inst. für Reaktorbauelemente; Zentrallab. für Chemische Analyse, Kernforschungsanlage, Jülich, Germany): Pyrolytisches Verfahren zum Aufschluß hochaktiver Graphitproben.Z. Anal. Chem. 249 (1970) 293–5 (in German).
Kobayashi, Y., Maudsley, D. V.(Worcester Foundation for Experimental Biol., Inc., Shrewsbury, Mass.): Practical aspects of liquid scintillation counting.Methods Biochem. Anal. 17 (1969) 55–133.
Kolb, W.: Analyse einer Thorium-X-Lösung auf langlebige radioaktive Verunreinigungen.PTB Mitt. 79 (1969) 19–22 (in German), see alsoNucl. Sci. Abstr. 23 (1969) No. 24107.
Leun, C. van der, Wit, P. de(Rijksuniv., Fysisch Labor., Utrecht, The Netherlands): A simple and versatile gamma-ray source for the calibration of high-energy Ge(Li) spectra.Phys. Letters 30 B (1969) 406–8.
Lisman, F. L., Maeck, W. J., Rein, J. E., Foster R. E., Abernathey, R. M., Delmore, J. E., Emel, W. A., Kussy, M. E., McAtee R. E., Workman, G. D.(Idaho Nuclear Corp., Idaho Falls, Idaho): Burnup determination of nuclear fuels. IN-1277, Mar. 1969, 115 p. Project Report for the Quarter Apr. 1–June 30, 1968 and Final Report, see alsoNucl. Sci. Abstr. 23 (1969) No. 23910.
Lloyd-Jones, C. P.(Res. Station, Univ. of Bristol, Long Ashton, Bristol, England): Determination of carbon-14 in biological material by flash combustion and suspension scintillation counting of carbon-14 labelled calcium carbonate.Analyst 95 (1970) 366–9.
Marinov, V., Dimchev, T., Vrigazov, A., Alexandrov, D.(Acad. Agricultural Sci., Veterinary Inst. of Contagious and Parasitic Diseases; Bulgarian Acad. Sci. Inst. of Physics, Sofia, Bulgaria): On the determination of low-level137Cs activities in meat by measurements with thin plastic phosphorus in 4π-geometry.Kernenergie 12 (1969) 397–400.
Melloni, M., Rechenmann, R. V., Ringoet, A., Geijn, S. C. van de Wilthagen, R. J. C.(Netherlands, Association Euratom-Ital., Wageningen, Netherlands): In-depth localization of beta emitting isotopes with a semiconductor detector spectrometric assembly.Nucl. Instr. Methods 74 (1969) 101–8.
Murty, H. S., Nair, P. P.(Sinai Hospital of Baltimore, Inc.): Liquid scintillation counting of14C-labeled hemin and its application to the biosynthesis of heme in bone marrow.Anal. Biochem. 31 (1969) 1–5, see alsoNucl. Sci. Abstr. 24 (1970) No. 4238.
Nadarajah, A., Leese, B., Joplin, G. F.(Royal Postgraduate Medical School, Dep. of Med., London, England): Triton X-100 scintillant for counting45Ca in biological fluids.Intern. J. Appl. Radiation Isotopes 20 (1969) 733–5.
Pagden, I. M. H., Sutherland, J. C.(Atlantic Oceanographic Lab., Bedford, Inst., Dartmouth; Control Data Canada Limited, Montreal, Canada): Resolving power of gamma-ray coincidence spectrometry using lithium drifted germanium detectors and its application to multiple radioisotope analysis.Anal. Chem. 42 (1970) 383–7.
Palmer, F.B.S.C.(Dalhousie Univ., Halifax, Nova Scotia): Measurement of32P following colorimetric phosphorus analysis.Anal. Biochem. 31 (1969) 493–501, see alsoNucl. Sci. Abstr. 24 (1970) No. 4237.
Parker, R. P.(Physics Dept., Inst. of Cancer Res., Sutton, Surrey, England): Cerenkov counting of radionuclides.Health Phys. 18 (1970) 175–6.
Paulus, H.(Harvard Medical School, Boston): A rapid and sensitive method for measuring the binding of radioactive ligands to proteins.Anal. Biochem. 32 (1969) 91–100, see alsoNucl. Sci. Abstr. 24 (1970) No. 4239.
Peterson, J. I., Wagner, F., Siegel, S., Nixon, W.(National Inst. of Health, Bethesda, Md.): A system for convenient combustion preparation of tritiated biological samples for scintillation analysis.Anal. Biochem. 31 (1969) 189–203, see alsoNucl. Sci. Abstr. 24 (1970) No. 4234.
Peterson, J. I.(National Inst. of Health, Bethesda, Md.): A carbon dioxide collection accessory for the rapid combustion apparatus for preparation of biological samples for liquid scintillation analysis.Anal. Biochem. 31 (1969) 204–10, see alsoNucl. Sci. Abstr. 24 (1970) No. 4235.
Piet, G. J., Cramer, W. A.: Die Bestimmung von14C in gaschromatographisch getrennten Fraktionen.Chem. Weekblad 64 (1968) 17–9 (in Dutch) see alsoZ. Anal. Chem. 250 (1970) 44.
Porges, K. G.(Argonne National Lab., Argonne, Ill.): Note on the S2/B criterion of quality for counting equipment.Intern. J. Appl. Radiation Isotopes 21 (1970) 181–2.
Prydz, S., Melö, T. B., Koren, J. F., Eriksen, E. L.(Inst. of Physics, Univ. of Oslo, Blindern, Norway): Fast radiochromatographic detection of tritium with ‘liquid’ scintillators at low temperatures.Anal. Chem. 42 (1970) 156–61.
Schlüter, W.(Staatl. Zentrale für Strahlenschutz der DDR, Berlin-Friedrichshagen): A large volume scintillation chamber for the measurement of radon concentrations.Schriftenreihe Staatl. Zentrale Strahlenschutz 11 (1969) 1–24 (in German).
Scott, H. L., Patter, D. M.(Bartol Res. Foundation of The Franklin Inst., Swarthmore, Pa.): Intensities of gamma-rays from the calibration source56Co.Phys. Rev. 184 (1969) 1111–6.
Sheibley, D. W.(Natl. Aeronautics and Space Administration, Plum Brook Reactor Facility, Plum Brook Station, Sandusky, Ohio: Lewis Res. Center, Cleveland, Ohio): A simple method for determination of fission gases trapped in irradiated fuel forms.Anal. Chem. 42 (1970) 142–3.
Simon, H., Rauschenbach, P. (TH München, Fak. für Landwirtschaft und Gartenbau, Chem. Inst., Weihenstephan, Germany): The present state of application of liquid scintillation counting. Results of a questionnaire.Intern. J. Appl. Radiation Isotopes 20 (1969) 725–31 (in German).
Smith, A. L., Thomas, J. W., Wollman, H. (Dept. of Anesthesia; Radiation Safety Office, Univ. of Pennsylvania, Pa.): Determination of the concentration of volatile isotopes in blood by liquid scintillation counting.Intern. J. Appl. Radiation Isotopes 21 (1970) 171–5.
Synder, F. L.: A review of instrumentation and procedures for14C and3H radioassay by thin-layer and gas-liquid chromatography.Isotopes Radiat. Technol. 6 (1969) 381–400, see alsoRef. Zh. Khim. 6 (1970) No. B 873.
Starnes, P. E. (Hilger and Watts Ltd., Reading, Berks. England): Radiometric analysis of powdered sample material.U. S. Patent 3 445 651 (1964–1969), see alsoNucl. Sci. Abstr. 23 (1969) No. 31571.
Sutton, D. W., Vallis, D. C. (Atomic Weapons Research Establishment, Aldermaston, England): Gamma-spectrometry of147Nd in fission product lanthanides.Radiochem. Radioanal. Letters 1 (1969) 319–24, see alsoNucl. Sci. Abstr. 23 (1969) No. 40573.
Szarvas, T., Végh, G., Ömböly, Cs. (Isotope Inst. of the Hungarian Acad. Sci., Budapest): Isolated internal standard for determining the efficiency of the continuous measuring method of samples labelled with14C.Atomtech. Tájékoztató 11 (1968) 344–8 (in Hungarian), see alsoNucl. Sci. Abstr. 23 (1969) No. 43269.
Van, Nguyen Huu, Lalou, C. (C. N. R. S., Centre des Faibles Radioactivités; Centre d’Etudes Nucléaires de Saclay, Service d’Electronique Physique, Gif-sur-Yvette, France): Simultaneous determination of234U/238U isotope ratio and of238U content in natural waters.Radiochim. Acta 12 (1969) 156–60 (in French).
Wallace, G., Coote, G. E. (Victoria Unit, of Wellington, Physics Dep., Wellington, New Zealand; Inst. of Nuclear Sci., Lower Hutt, New Zealand): Efficiency calibration of Ge(Li) detectors using a radium source.Nucl. Instr. Methods 74 (1969) 353–4.
Ware, A. R., Oldham, G., Bibby, D. M. (Dept. of Chemistry, Univ. of Technology, Loughborough, Leics., England): Determination of low concentrations of iodine-131 in fast-reactor coolant systems.Talanta 17 (1970) 339–41.
Wood, A. J., Milner, G. W. C. (Atomic Energy Research Establishment, Harwell, England): An improved method for the determination of plutonium by alpha counting. AERE-R-6163, Aug. 1969, 9 p., see alsoNucl. Sci. Abstr. 24 (1970) No. 5600.
Whyman, A. E. (Wessex Regional Dept. of Nuclear Medicine, General Hospital, Southampton, England): Measurement of tritium in neat plasma and urine with a toluene (Triton X-100) Hyamine 10-X scintillant.Intern. J. Appl. Radiation Isotopes 21 (1970) 81–6.
Analytical separations involving radioisotopes
Agett, J., Clark, T. E., Richardson, R. A. (Univ. of Auckland, Chem. Dep., Auckland, New Zealand): Solvent extraction of divalent metal perchlorates by tributyl phosphate.J. Inorg. Nucl. Chem. 31 (1969) 2919–26.
Alberti, G., Allulli, S., Palazzeschi, L. (Univ. di Roma, Istituto di Chimica Generale ed Inorganica, C. N. E. N. Labor. di Chimica delle Radiazioni e Chimica Nucleare, Rome, Italy): Chromatography and zone electrophoresis of inorganic ions dissolved in fused salts. Part 5. Electrophoretic behaviour of some metal ions dissolved in molten perchlorates.J. Chromatog. 44 (1969) 141–7.
Aly, H. F., El-Haggag, M. D. (Nuclear Chem. Dep., Atomic Energy Establishment, Cairo, UAR): Synergism in extraction chromatography. Part 1. Separation of europium from samarium.Radiochem. Radioanal. Letters 3 (1970) No. 4, 249–53.
Baishya, N. K., Heslop, R. B., Ramsey, A. C. (Chem. Dep., Univ. of Manchester, Inst. of Sci. and Technol., Manchester, UK): The separation of99Tc from99Mo by solvent extraction with isobutyl methyl ketone.Radiochem. Radioanal. Letters 4 (1970) No. 1, 15–20.
Besson, A., Prigent, Y., Van-Kote, F.: Application de l’électrolyse sur cathode de mercure à la séparation des produits. Rapp. CEA No. 3788, 1969, 21 p., see alsoRef. Zh. Khim. 6 (1970) No. B 865.
Bowen, H. J. M. (Chem. Dep., Reading Univ., Reading, Berks., UK.): The use of silver chromate—51Cr columns to determine chlorides and sulphides in solution.Radiochem. Radioanal. Letters 3 (1970) No. 4, 339–42.
Brück, H. (Lurgi Gesellschaft für Wärmeund Chemotechnik mbH, Frankfurt am Main): Retardation of emission of krypton and xenon by adsorption on activated charcoal.Chem. Ing. Tech. 41 (1969) 1046–50 (in German).
Bubernak, J., Lew, M. S., Matlack, G. M. (Los Alamos Scientific Lab., N. Mex.): Ion exchange, extraction, separation and radiochemical determination of237Np in238Pu.Anal. Chim. Acta 48 (1969) 233–41, see alsoNucl. Sci. Abstr. 24 (1970) No. 2140.
Bulovic, V., Krtil, J., Maksimovic, Z. (Boris Kidrić Inst. Nuclear Sciences, Vinča, Yugoslavia): Radiochemical determination of nuclear fuel burn-up in irradiated uranium dioxide.Bull. Boris Kidrić Inst. Nucl. Sci., Chemistry 20 (1969) No. 1, 1–7.
Clanet, F., Ballada, J. (Dépt. de la Protection Sanitaire, Commissariat à l’Energie Atomique, Fontenay-aux-Roses, France): Radiochemical analysis on ion exchange filters: determination of uranium isotopes in urine.Intern. J. Appl. Radiation Isotopes 21 (1970) 147–54.
Fourie, H. O., Ghijsels, J. P. (Republic of South Africa, Atomic Energy Board, Isotopes and Radiation Div., Pelindaba): Radiostrontium in biological material: a precipitation and extraction procedure eliminating the use of fuming nitric acid.Health Phys. 17 (1969) 685–9.
Getoff, N. (Österreichische Akad. Wiss., Inst. für Radiumforschung und Kernphysik, Wien): Radiochemical and photochemical investigations.Allgem. Prakt. Chem. 20 (1969) 286–9 (in German).
Girardi, F., Pietra, R., Sabbioni, E. (Chemistry Dept., Joint Nuclear Res. Center, Ispra Establishment, Ispra, Italy): Radiochemical separation by retention on ionic precipitates—adsorption tests on 17 materials. EUR-4287 e, July 1969, 100 p.
Goffart, J., Duyckaerts, G. (Univ. de Liège au Sart Tilman, Inst. de Chimie Analytique, Liège, Belgique): Extraction of lanthanides and actinides by alkylphosphine oxides. Part 5. Extraction of trivalent actinides by some diphosphine dioxides.Anal. Chim. Acta 48 (1969) 99–106 (in French).
Gopal, N. G. S.: Radiochromium (51Cr) as tracer in the separation of chromium in its two oxidation states.Indian J. Chem. 7 (1969) 618–22, see alsoRef. Zh. Khim. 5 (1970) No. B 977.
Groll, P., Grass, F., Buchtela, K. (Univ. Wien, Analytisches Inst.: Österr. Hochschule, Atomint., Wien): The electrodialysis by ion exchange membranes for the separation of carrier-free radionuclides. Part I. Production of carrier-free90Y from90Sr+90Y equilibrium mixtures.Radiochim. Acta 12 (1969) 152–6 (in German).
Günther, E. W., Starke, K. (Inst. für Kernchemie, Universität Marburg/Lahn, Germany): Einige kurzlebige Spaltprodukte im Bereich der Seltenen Erden.Radiochim. Acta 11 (1969) 134–8 (in German).
Hahn, H. K. J., Sullivan, J. L., Blotcky, A. J., Arsenault, L. J., May, A. D. (Reactor Lab., Veterans Administration Hospital, Omaka, Neb.): Radiochemical separation and determination of cadmium from biological materials by solvent extraction.Radiochim. Acta 13 (1970) 55–6.
Horwitz, E. P., Bloomquist, C. A. A. (Argonne National Labor., Chem. Div., Argonne, Ill.): The tracer chemistry of trivalent mendelevium with di-orthophosphoric acid.Inorg. Nucl. Chem. Letters 5 (1969) 753–9.
Kanapilly, G. M., Yaeger, D. J. (Lovelace Foundation for Medical Education and Res., Fission Product Inhalation Laboratories, Albuquerque, N. Mex.): Colloid filtration as a preparative method for the radiochemical analysis of biological samples.Health Phys. 17 (1969) 579–91.
Kawashima, T. (Government Industrial Res. Inst., Nagoya, Hirate-machi, Japan): Separation of carrier-free90Y from90Sr by cation exchange in a methanol-ammonium acetate medium.Intern. J. Appl. Radiation Isotopes 20 (1969) 806–8.
Keough, R. F., Powers, G. J. (Battelle Memorial, Inst., Pacific Northwest Lab., Richland, Washington): Determination of plutonium in biological materials by extraction and liquid scintillation counting.Anal. Chem. 42 (1970) 419–21.
Krtil, J., Moravec, A., Mencl, J. (Nuclear Research Inst. of the Czech. Acad. Sci., Řež near Prague Czechoslovakia): The determination of burn-up of nuclear fuel by radiochemical methods.Radiochem. Radioanal. Letters 3 (1970) No. 3, 193–9.
Mehra, M. C. (Dept. of Chem., Univ. of Moncton, Moncton, New Brunswick, Canada): Radiochemical separations of insoluble ferricyanides.Radiochem. Radioanal. Letters 3 (1970) No. 3, 201–211.
Merinis, J., Boussieres, G. (Inst. de Physique Nucléaire, Div. de Radiochimie, Orsay, France): Study of the migration of radionuclides in a tube with a temperature gradient.Radiochim. Acta 12 (1969) 140–52 (in French).
Michailov, M., Sorantin, H. (Österreichische Studiengesellschaft für Atomenergie m.b.H., Inst. für Chemie, Reaktorzentrum Seibersdorf): Labelling of oils with carrier-free51Cr,54Mn and59Fe.Radiochem. Radioanal. Letters 3 (1970) No. 3 155–163.
Navratil, O., Dubinin, I. (Fac. Natural Sci., Dep. of Biochem., Brno, Czechoslovakia): Acidic organophosphorus extractants. Part 9. Extraction of some lanthanides by means of dibutylphosphoric acid from strong acidic medium.J. Inorg. Nucl. Chem. 31 (1969) 2927–32.
Ohno, S., Inarida, M., Shimamura, A. (National Inst. of Radiological Sci., Anagawa, Chiba-shi; Inst. of Phys. and Chem. Research, Yamato-machi, Saitama, Japan): Separation of carrier-free48V from deuteron bombarded titanium by solvent extraction.Radiochem. Radioanal. Letters 4 (1970) No. 1, 29–33.
Ohno, S., Tsutsui, T. (Natl. Inst. of Radiological Sciences, Anagawa, Chiba; Res. Reactor Inst., Kyoto Univ., Osaka, Japan): Rapid determination of nitrogen-13 and fluorine-18 in reactor cooling water by an ion-exchange method.Analyst 95 (1970) 396–8.
Parker, W., Perez Alarcon, J. (Quimica Nuclear, Seccion Quimica Inst. Venezalano de Invest. Sci., Caracas, Venezuela): Preparation of carrier-free chromium-51 and tungsten-185 by means of (n,γ) recoil.Radiochem. Radioanal. Letters 3 (1970) No. 3, 223–6.
Patil, S. K., Sharma, H. D. (Bhabha Atomic Res. Centre, Radiochem. Div., Trombay, Bombay, India): Ion exchange and solvent extraction equilibria in mixed electrolytes.Can. J. Chem. 47 (1969) 3851–8.
Petković, D. M., Milonjic, S.K. (Boris Kidrić Inst. Nuclear Sciences, Vinča, Yugoslavia): Adsorption of cesium from basic water on natural magnetite.Bull. Boris Kidrić Inst. Nucl. Sci., Chemistry 20 (1969) No. 3, 17–23.
Radovanov, P. D., Gaćinović, O. M., Gal, I. J. (Boris Kidrić Inst. of Nuclear Sci., Vinča, Yugoslavia): The ion-exchange of cobalt(II) in synthetic zeolite Linde 4A.J. Inorg. Nucl. Chem. 31 (1969) 2981–83.
Sachse, G., Schlenkrich, H. (Zentralinst. für Kernforschung, Bereich Radiochemie, Rossendorf bei Dresden, DDR): On the purification of radioactive waste waters by contact precipitation. Part 4. The influence of complexing agents, detergents and surface-active agents.Kernenergie 12 (1969) 363–7 (in German).
Sethi, S., Rai, R. S. (Inst. of Technology and Science, Pilani; Dept. of Chemistry, Univ. of Rajasthan, Jaipur, India): Radiochemical separation of thorium-234 on Zeokarb-225 exchange resin using m-nitrobezoic acid as eluting agent.Z. Anal. Chem. 249 (1970) 186.
Smulek, W., Moszynska, K. (Dept. of Radiochemistry, Inst. of Nuclear Res., Warszawa: Centre of Production and Distribution of Isotopes, Inst. of Nuclear Res., Swierk, Poland): Separation of yttrium from irradiated uranium samples by extraction chromatography.Nukleonika 14 (1969) 1123–30.
Stella, R., Maxia, V., Moretto, L. (Univ. de Pavia, Istituto di Chimica Generali, Labor. de Rediochimica, Pavia, Italy):111Ag and115Cd yields in the reactor neutron fission and237Np.Ric. Sci. 38 (1968) 1190–3.
Taylor, T. L. (Chemistry Dept., Columbia Univ., New York, N.Y.): Separation of isotopes. TID-4051 (1st Ed.), Jan, 1969. p.80. Summaries of the USAEC Basic Research Program in Chemistry (off site), see alsoNucl. Sci. Abstr. 23 (1969) No. 9359.
Wiersma, J. H., Lott, P. F. (Univ. of Missouri, Kansas City): Radiometric and spectrophotometric determination of trace amounts of selenium using 3,3′-diaminobenzidine as the initial reagent.Anal. Letters 1 (1968) 655–67, see alsoNucl. Sci. Abstr. 23 (1969) No. 37907.
Willis, C. P., Olson, D. G., Sill, C. W. (U. S. Atomic Energy Commission, Health Services Lab., Idaho Falls, Idaho): Radiochemical determination of sulfur-35 in large samples of vegetation.Anal. Chem. 42 (1970) 124–6.
Zvara, I., Belov, V. Z., Korotkin, Yu. S., Shalayevskii, M. R., Schegolev, V. A., Hussonnois, M., Zager, B. A. (Joint Inst. for Nuclear Research, Dubna, USSR): Experiments on chemical identification of spontaneously fissionable isotope of element 105.Communication of the Joint Institute for Nuclear Research, Dubna, P12–5120, 1970, 13 p.
Zvarova, T. S., Zvara, I. (Joint Inst. for Nuclear Res., Labor. of Nuclear Reactions, Dubna, USSR): Separation of rare earth elements by gas chromatography of their chlorides.J. Chromatogr. 44 (1969) 604–8.
Analysis using radioactive reagents
Carden, J. E. (Oak Ridge National Lab., Tenn.): Radio-release in review with special emphasis on85Kr clathrates and kryptonates. ORNL-HC-18 July 1969, 46 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 40571.
Ho, R. J., Meng, H. C. (Vanderbilt Univ., Nashville, Tenn.): A simple and ultrasensitive method for determination of free fatty acid by radiochemical assay.Anal. Biochem. 31 (1969) 426–36, see alsoNucl. Sci. Abstr. 24 (1970) No. 4236.
Kriván, V., Weisz, H. (Chem. Institut, Univ. Freiburg i. Br., Germany): Neue Varianten der Isotopenverdünnungs- und Radioreagensmethode. Vortragstagung der GDCh-Fachgruppe Analytische Chemie, Freiburg, Apr. 9–11, 1969, AED-Conf. 69-045-003, 7 p.
Kriván, V. (Dept. of Analytical Chemistry, Chemical Inst., Univ. Freiburg i. Br., Germany): Analysis by release of radioactivity by inorganic ion-exchange and ring oven technique. Part 1. Determination of copper.Talanta 16 (1969) 1513–8.
Mlinko, S., Dobis, E.: Sulphur determination in organic compounds by radioreagent method.Acta Chim. Acad. Sci. Hung. 61 (1969) 133–48, see alsoRef. Zh. Khim. 6 (1970) No. G. 225, andNucl. Sci. Abstr. 24 (1970) No. 2145.
Zeman, A., Starý, J., Kratzer, K.(Dep. of Nuclear Chem., Technical Univ. of Prague, Czechoslovakia): Determination of traces of arsenic by isotope exchange reaction in the organic phase.Radiochem. Radioanal. Letters 4 (1970) No. 1, 1–6.
Environmental monitoring A. Results
Aarkrog, A., Lippert, J.(Danish Atomic Energy Commission Res. Establishment, Risö, Denmark): Environmental radio-activity in Denmark in 1968. Risö-201, June 1969, 81 p.
Aberg, B.(Royal Veterinary College, Dept. of Clinical Biochemistry and Radiobiology, Stockholm, Sweden):137Cs in Swedish meat 1962–69. 5th Symposium on Radio-activity in Scandinavia, Helsinki, Finland, May 19–20, 1969. AED-Conf. 69-137-014, 2 p.
Anon.: Radioactivity of food in 1968.Mitt. Gebiete Lebensm. Hyg. 60 (1969) 81–104 (in French).
Baptist, J. P., Hoss, D. E., Lewis, C. W.(Bureau of Commercial Fisheries, Radiobiological Lab., Beaufort, N. C.): Retention of51Cr,59Fe,60Co,65Zn,85Sr,95Nb,141mIn and131I by the Atlantic croaker (Micropogon Undulatus). Health Phys. 18 (1970) 141–8.
Blanchard, R. L., Moore, J. B.(U. S. Dept. of Health, Education and Welfare, Public Health Service, Environmental Control Admisistration; Bureau of Radiological Health, Radiological Engineering Lab., Cincinnati, Ohio):210Pb and210Po in tissues of some Alaskan residents as related to consumption of caribou or reindeer meat.Health Phys. 18 (1970). 127–34.
Bühringer, H., Feldt, W.(Isotopenlab. der Bundesforschungsanstalt für Fischerei, Hamburg, Germany): Radioökologische Studien als Ergänzung zu den Sandwanderungsversuchen mit radioaktiv markiertem Sand51Cr der Bundesanstalt für Wasserbau, Aussenstelle Küste.Inform. Fischwirtschaft No. 2 (1969) 61–5 (in German).
Cambray, R. S., Fisher, E. M. R., Clarke, F. C.(Atomic Energy Res. Establishment, Harwell, Berks., England): Fallout. AERE-PR/HPM-13, Mar. 1969. 21–3 p. Health Physics and Medical Division Progress Report, January–December, 1968.
Csongor, É.(Inst. of Nuclear Research of the Hungarian Acad. Sci., Debrecen): Atmospheric85Kr measurements between 1966 and 1968 in Debrecen (Hungary).Acta Phys. Acad. Sci. Hung. 28 (1970) 109–14.
Feldt, W.(Isotopenlab. der Bundesforschungsanstalt für Fischerei, Hamburg, Germany): Strahlenschutzaspekte bei der Überwachung der Fische auf ihre radio-aktive Kontamination. Proc. 1st Intern. Congress of the International Radiation Protection Assoc. Rome, Italy, Sept, 5–10, 1966. Pergamon, New York, 1968, 395–400 p. CONF-660920.
Holtzman, R. B.(Radiological Physics Div., Argonne, National Lab, Argonne, Ill.): Sources of210Pb in uranium miners.Health Phys. 18 (1970) 105–12.
Magi, A., Snish, J. O., Swedjemark, G. A.(Doedersjukhuset, Dept. of Radiophys.; Natl. Inst. of Radiation Protection, Special Lab. for Environmental Res., Fack. Stockholm, Sweden): Some measurements on radioactivity in Sweden caused by nuclear test explosions. 5th Symposium on Radioactivity in Scandinavia, Helsinki, Finland, May 19–20, 1969. AED-Conf. 69-137-016, 53 p.
Pietrzak-Flis, Z.(Central Lab. for Radiological Protection, Warsaw, Poland): Content of caesium-137 and potassium in the diet of some population groups and in some foodstuffs in Poland in 1965–1966.Nukleonika 14 (1969) 1027–36.
Quastel, M. R., Taniguchi, H., Overton, T. R.(Radiation Protection Div., Dept. of National Health and Welfare, Ottawa, Canada): Excretion and retention by humans of chronically inhaled uranium dioxide.Health Phys. 18 (1970) 233–44.
Randow, F., Schulze, H. A.(Inst. für Hygiene, Univ. Rostock, DDR): The radioactive contamination of foodstuffs in the northern districts of the GDR during 1965–1967.Z. Ges. Hyg. Grenzg. 15 (1969) 261–7 (in German).
Ruf, M.: Contamination of fresh water with radioactive material with special attention to sludge of river dams.Wasserwirtschaft 58 (1968) 16–22, see alsoNucl. Sci. Abstr. 23 (1969) No. 9547.
Salo, K., Uotila, U.:90Sr in human bone in Finland in 1967–1968. 5th Symposium on Radioactivity in Scandinavia, Helsinki, Finland, May 19–20, 1969. AED-Conf. 69-137-012, 3 p.
B. Methods
Braun, T., Ruiz De Pardo, C., Salazar, E. C.(Labor. of Radiochem. Dep. on Environmental Radioactivity, Junta de Control de Energia Atomica, Lima, Peru): Iodine-131 monitoring in milk using an iodide membrane electrode for chemical yield determination.Radiochem. Radioanal. Letters 3 (1970) No. 5, 397–403.
Iwakura, T.(National Inst. of Radiological Sciences, Chiba, Japan): Measurement of beta activities in aqueous solution utilizing Cherenkov effect by means of liquid scintillation counters.Radioisotopes (Tokyo) 18 (1969) 500–5, see alsoNucl. Sci. Abstr. 24 (1970) No. 2142.
Merten, D., Suschny, O., Tugsavul, A., Wortley, G.(Intern. Atomic Energy Agency; Joint FAO/IAEA Division of Atomic Energy in Food and Agriculture, Vienna, Austria): Analytical chemistry and its influence on the development in pure and applied science. 5th Symposium on Radioactivity in Scandinavia, Helsinki, Finland, May, 19–20, 1969. AED-Conf. 69-137-011, 11 p.
Morsy, S. M., Jahns, E., Aloush, A. A.(Radiation Protection Dept., Atomic Energy Establishment, Cairo, U. A. R.; Inst. of Nuclear Medicine and Special Biophysics, Hannover, Germany): In vivo gamma-spectrometric investigation of thorium body burdens in the Egyptian monazite area.Health Phys. 18 (1970) 263–6.
Quentin, K. E., Schretzenmayr, G.(Inst. für Wasserchemie und Chem. Balneol., Technische Hochschule, München, Germany): Analysis of radon in mineral water and in balneological water.Z. Lebensm. Untersuch. Forsch. 139 (1969) 87–96 (in German).
Sastry, V. N., Krishnamoorthy, T. M., Sarma, T. P.(Bhabha Atomic Res. Centre, Health Physics Div., Bombay, India): Micro determination of zirconium in marine environment.Curr. Sci. (India) 38 (1969) 279–81.
Senegacnik, M., Paljk, S., Kristan, J.(Inst. Jozef. Stefan, Ljubljana; Dept. of Mining and Metallurgy, Univ. of Ljubljana, Yugoslavia): Radiochemical determination of caesium-137, strontium-89, 90 and barium-140 in milk and bone ash.Z. Anal. Chem. 249 (1970) 39–41.
Shedov, V. P., Shopauskene, D. A.(Acad. Sci. Lithuan SSR, Inst. of Physics and Mathematics): The determination of32P and33P in the atmosphere. Part 2. On the purification of32P and33P from some beta-emitting isotopes.Tr. Akad. Nauk Lit. SSR. Ser. B. 3 (1969) 115–24 (in Russian).
Silantev, A. N.: Spectrometric analysis of radioactive environmental samples. Gidrometeoizdat, Leningrad, 1969, 183 p. (in Russian).
Thomas, J. W., LeClare, P. C.(U. S. Atomic Energy Commission, Health and Safety Lab., New York, N. Y.; Rutgers Univ., New Brunswick, N. J.): A study of the two-filter method for radon-222.Health Phys. 18 (1970) 113–22.
Tomitani, T., Tanaka, E.(Natl. Inst. of Radiological Sciences, Anagawa, Chiba, Japan): Large area proportional counter for assessment of plutonium lung burden.Health Phys. 18 (1970) 195–206.
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Bock-Werthmann, W., Sansoni, B. & Bujdosó, E. Bibliography section. J. Radioanal. Chem. 6, 483–499 (1970). https://doi.org/10.1007/BF02513977
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DOI: https://doi.org/10.1007/BF02513977